Deep Learning Methods for Small Molecule Drug Discovery: A Survey

With the development of computer-assisted techniques, research communities, including biochemistry and deep learning, have been devoted into the drug discovery field for over a decade. Various applications of deep learning have drawn great attention in drug discovery, such as molecule generation, molecular property prediction, retrosynthesis prediction, and reaction prediction. While most of the existing surveys only focus on one of the applications, limiting the view of researchers in the community, in this article, we present a comprehensive review on the aforementioned four aspects and discuss the relationships among different applications. The latest literature and classical benchmarks are presented for better understanding the development of a variety of approaches. We commence by summarizing the molecule representation format in these works, followed by an introduction of recent proposed approaches for each of the four tasks. Furthermore, we review a variety of commonly used datasets and evaluation metrics and compare the performance of deep-learning-based models. Finally, we conclude by identifying remaining challenges and discussing the future trend for deep learning methods in drug discovery.